#!/usr/bin/python # # Copyright 2014 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Partial Python implementation of iproute functionality.""" # pylint: disable=g-bad-todo import errno import os import socket import struct import sys import cstruct import netlink ### Base netlink constants. See include/uapi/linux/netlink.h. NETLINK_ROUTE = 0 # Request constants. NLM_F_REQUEST = 1 NLM_F_ACK = 4 NLM_F_REPLACE = 0x100 NLM_F_EXCL = 0x200 NLM_F_CREATE = 0x400 NLM_F_DUMP = 0x300 # Message types. NLMSG_ERROR = 2 NLMSG_DONE = 3 # Data structure formats. # These aren't constants, they're classes. So, pylint: disable=invalid-name NLMsgHdr = cstruct.Struct("NLMsgHdr", "=LHHLL", "length type flags seq pid") NLMsgErr = cstruct.Struct("NLMsgErr", "=i", "error") NLAttr = cstruct.Struct("NLAttr", "=HH", "nla_len nla_type") # Alignment / padding. NLA_ALIGNTO = 4 ### rtnetlink constants. See include/uapi/linux/rtnetlink.h. # Message types. RTM_NEWLINK = 16 RTM_DELLINK = 17 RTM_GETLINK = 18 RTM_NEWADDR = 20 RTM_DELADDR = 21 RTM_GETADDR = 22 RTM_NEWROUTE = 24 RTM_DELROUTE = 25 RTM_GETROUTE = 26 RTM_NEWNEIGH = 28 RTM_DELNEIGH = 29 RTM_GETNEIGH = 30 RTM_NEWRULE = 32 RTM_DELRULE = 33 RTM_GETRULE = 34 # Routing message type values (rtm_type). RTN_UNSPEC = 0 RTN_UNICAST = 1 RTN_UNREACHABLE = 7 # Routing protocol values (rtm_protocol). RTPROT_UNSPEC = 0 RTPROT_STATIC = 4 # Route scope values (rtm_scope). RT_SCOPE_UNIVERSE = 0 RT_SCOPE_LINK = 253 # Named routing tables. RT_TABLE_UNSPEC = 0 # Routing attributes. RTA_DST = 1 RTA_SRC = 2 RTA_OIF = 4 RTA_GATEWAY = 5 RTA_PRIORITY = 6 RTA_PREFSRC = 7 RTA_METRICS = 8 RTA_CACHEINFO = 12 RTA_TABLE = 15 RTA_MARK = 16 RTA_UID = 18 # Route metric attributes. RTAX_MTU = 2 RTAX_HOPLIMIT = 10 # Data structure formats. IfinfoMsg = cstruct.Struct( "IfinfoMsg", "=BBHiII", "family pad type index flags change") RTMsg = cstruct.Struct( "RTMsg", "=BBBBBBBBI", "family dst_len src_len tos table protocol scope type flags") RTACacheinfo = cstruct.Struct( "RTACacheinfo", "=IIiiI", "clntref lastuse expires error used") ### Interface address constants. See include/uapi/linux/if_addr.h. # Interface address attributes. IFA_ADDRESS = 1 IFA_LOCAL = 2 IFA_CACHEINFO = 6 # Address flags. IFA_F_SECONDARY = 0x01 IFA_F_TEMPORARY = IFA_F_SECONDARY IFA_F_NODAD = 0x02 IFA_F_OPTIMISTIC = 0x04 IFA_F_DADFAILED = 0x08 IFA_F_HOMEADDRESS = 0x10 IFA_F_DEPRECATED = 0x20 IFA_F_TENTATIVE = 0x40 IFA_F_PERMANENT = 0x80 # Data structure formats. IfAddrMsg = cstruct.Struct( "IfAddrMsg", "=BBBBI", "family prefixlen flags scope index") IFACacheinfo = cstruct.Struct( "IFACacheinfo", "=IIII", "prefered valid cstamp tstamp") NDACacheinfo = cstruct.Struct( "NDACacheinfo", "=IIII", "confirmed used updated refcnt") ### Neighbour table entry constants. See include/uapi/linux/neighbour.h. # Neighbour cache entry attributes. NDA_DST = 1 NDA_LLADDR = 2 NDA_CACHEINFO = 3 NDA_PROBES = 4 # Neighbour cache entry states. NUD_PERMANENT = 0x80 # Data structure formats. NdMsg = cstruct.Struct( "NdMsg", "=BxxxiHBB", "family ifindex state flags type") ### FIB rule constants. See include/uapi/linux/fib_rules.h. FRA_IIFNAME = 3 FRA_PRIORITY = 6 FRA_FWMARK = 10 FRA_SUPPRESS_PREFIXLEN = 14 FRA_TABLE = 15 FRA_FWMASK = 16 FRA_OIFNAME = 17 FRA_UID_START = 18 FRA_UID_END = 19 # Link constants. See include/uapi/linux/if_link.h. IFLA_ADDRESS = 1 IFLA_BROADCAST = 2 IFLA_IFNAME = 3 IFLA_MTU = 4 IFLA_QDISC = 6 IFLA_STATS = 7 IFLA_TXQLEN = 13 IFLA_MAP = 14 IFLA_OPERSTATE = 16 IFLA_LINKMODE = 17 IFLA_STATS64 = 23 IFLA_AF_SPEC = 26 IFLA_GROUP = 27 IFLA_EXT_MASK = 29 IFLA_PROMISCUITY = 30 IFLA_NUM_TX_QUEUES = 31 IFLA_NUM_RX_QUEUES = 32 IFLA_CARRIER = 33 def CommandVerb(command): return ["NEW", "DEL", "GET", "SET"][command % 4] def CommandSubject(command): return ["LINK", "ADDR", "ROUTE", "NEIGH", "RULE"][(command - 16) / 4] def CommandName(command): try: return "RTM_%s%s" % (CommandVerb(command), CommandSubject(command)) except IndexError: return "RTM_%d" % command class IPRoute(netlink.NetlinkSocket): """Provides a tiny subset of iproute functionality.""" FAMILY = NETLINK_ROUTE def _NlAttrIPAddress(self, nla_type, family, address): return self._NlAttr(nla_type, socket.inet_pton(family, address)) def _NlAttrInterfaceName(self, nla_type, interface): return self._NlAttr(nla_type, interface + "\x00") def _GetConstantName(self, value, prefix): return super(IPRoute, self)._GetConstantName(__name__, value, prefix) def _Decode(self, command, msg, nla_type, nla_data): """Decodes netlink attributes to Python types. Values for which the code knows the type (e.g., the fwmark ID in a RTM_NEWRULE command) are decoded to Python integers, strings, etc. Values of unknown type are returned as raw byte strings. Args: command: An integer. - If positive, the number of the rtnetlink command being carried out. This is used to interpret the attributes. For example, for an RTM_NEWROUTE command, attribute type 3 is the incoming interface and is an integer, but for a RTM_NEWRULE command, attribute type 3 is the incoming interface name and is a string. - If negative, one of the following (negative) values: - RTA_METRICS: Interpret as nested route metrics. family: The address family. Used to convert IP addresses into strings. nla_type: An integer, then netlink attribute type. nla_data: A byte string, the netlink attribute data. Returns: A tuple (name, data): - name is a string (e.g., "FRA_PRIORITY") if we understood the attribute, or an integer if we didn't. - data can be an integer, a string, a nested dict of attributes as returned by _ParseAttributes (e.g., for RTA_METRICS), a cstruct.Struct (e.g., RTACacheinfo), etc. If we didn't understand the attribute, it will be the raw byte string. """ if command == -RTA_METRICS: name = self._GetConstantName(nla_type, "RTAX_") elif CommandSubject(command) == "ADDR": name = self._GetConstantName(nla_type, "IFA_") elif CommandSubject(command) == "LINK": name = self._GetConstantName(nla_type, "IFLA_") elif CommandSubject(command) == "RULE": name = self._GetConstantName(nla_type, "FRA_") elif CommandSubject(command) == "ROUTE": name = self._GetConstantName(nla_type, "RTA_") elif CommandSubject(command) == "NEIGH": name = self._GetConstantName(nla_type, "NDA_") else: # Don't know what this is. Leave it as an integer. name = nla_type if name in ["FRA_PRIORITY", "FRA_FWMARK", "FRA_TABLE", "FRA_FWMASK", "FRA_UID_START", "FRA_UID_END", "RTA_OIF", "RTA_PRIORITY", "RTA_TABLE", "RTA_MARK", "IFLA_MTU", "IFLA_TXQLEN", "IFLA_GROUP", "IFLA_EXT_MASK", "IFLA_PROMISCUITY", "IFLA_NUM_RX_QUEUES", "IFLA_NUM_TX_QUEUES", "NDA_PROBES", "RTAX_MTU", "RTAX_HOPLIMIT"]: data = struct.unpack("=I", nla_data)[0] elif name == "FRA_SUPPRESS_PREFIXLEN": data = struct.unpack("=i", nla_data)[0] elif name in ["IFLA_LINKMODE", "IFLA_OPERSTATE", "IFLA_CARRIER"]: data = ord(nla_data) elif name in ["IFA_ADDRESS", "IFA_LOCAL", "RTA_DST", "RTA_SRC", "RTA_GATEWAY", "RTA_PREFSRC", "RTA_UID", "NDA_DST"]: data = socket.inet_ntop(msg.family, nla_data) elif name in ["FRA_IIFNAME", "FRA_OIFNAME", "IFLA_IFNAME", "IFLA_QDISC"]: data = nla_data.strip("\x00") elif name == "RTA_METRICS": data = self._ParseAttributes(-RTA_METRICS, msg.family, None, nla_data) elif name == "RTA_CACHEINFO": data = RTACacheinfo(nla_data) elif name == "IFA_CACHEINFO": data = IFACacheinfo(nla_data) elif name == "NDA_CACHEINFO": data = NDACacheinfo(nla_data) elif name in ["NDA_LLADDR", "IFLA_ADDRESS"]: data = ":".join(x.encode("hex") for x in nla_data) else: data = nla_data return name, data def __init__(self): super(IPRoute, self).__init__() def _AddressFamily(self, version): return {4: socket.AF_INET, 6: socket.AF_INET6}[version] def _SendNlRequest(self, command, data, flags=0): """Sends a netlink request and expects an ack.""" flags |= NLM_F_REQUEST if CommandVerb(command) != "GET": flags |= NLM_F_ACK if CommandVerb(command) == "NEW": if not flags & NLM_F_REPLACE: flags |= (NLM_F_EXCL | NLM_F_CREATE) super(IPRoute, self)._SendNlRequest(command, data, flags) def _Rule(self, version, is_add, rule_type, table, match_nlattr, priority): """Python equivalent of "ip rule <add|del> <match_cond> lookup <table>". Args: version: An integer, 4 or 6. is_add: True to add a rule, False to delete it. rule_type: Type of rule, e.g., RTN_UNICAST or RTN_UNREACHABLE. table: If nonzero, rule looks up this table. match_nlattr: A blob of struct nlattrs that express the match condition. If None, match everything. priority: An integer, the priority. Raises: IOError: If the netlink request returns an error. ValueError: If the kernel's response could not be parsed. """ # Create a struct rtmsg specifying the table and the given match attributes. family = self._AddressFamily(version) rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC, RTPROT_STATIC, RT_SCOPE_UNIVERSE, rule_type, 0)).Pack() rtmsg += self._NlAttrU32(FRA_PRIORITY, priority) if match_nlattr: rtmsg += match_nlattr if table: rtmsg += self._NlAttrU32(FRA_TABLE, table) # Create a netlink request containing the rtmsg. command = RTM_NEWRULE if is_add else RTM_DELRULE self._SendNlRequest(command, rtmsg) def DeleteRulesAtPriority(self, version, priority): family = self._AddressFamily(version) rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC, RTPROT_STATIC, RT_SCOPE_UNIVERSE, RTN_UNICAST, 0)).Pack() rtmsg += self._NlAttrU32(FRA_PRIORITY, priority) while True: try: self._SendNlRequest(RTM_DELRULE, rtmsg) except IOError, e: if e.errno == -errno.ENOENT: break else: raise def FwmarkRule(self, version, is_add, fwmark, table, priority): nlattr = self._NlAttrU32(FRA_FWMARK, fwmark) return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority) def IifRule(self, version, is_add, iif, table, priority): nlattr = self._NlAttrInterfaceName(FRA_IIFNAME, iif) return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority) def OifRule(self, version, is_add, oif, table, priority): nlattr = self._NlAttrInterfaceName(FRA_OIFNAME, oif) return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority) def UidRangeRule(self, version, is_add, start, end, table, priority): nlattr = (self._NlAttrInterfaceName(FRA_IIFNAME, "lo") + self._NlAttrU32(FRA_UID_START, start) + self._NlAttrU32(FRA_UID_END, end)) return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority) def UnreachableRule(self, version, is_add, priority): return self._Rule(version, is_add, RTN_UNREACHABLE, None, None, priority) def DefaultRule(self, version, is_add, table, priority): return self.FwmarkRule(version, is_add, 0, table, priority) def CommandToString(self, command, data): try: name = CommandName(command) subject = CommandSubject(command) struct_type = { "ADDR": IfAddrMsg, "LINK": IfinfoMsg, "NEIGH": NdMsg, "ROUTE": RTMsg, "RULE": RTMsg, }[subject] parsed = self._ParseNLMsg(data, struct_type) return "%s %s" % (name, str(parsed)) except IndexError: raise ValueError("Don't know how to print command type %s" % name) def MaybeDebugCommand(self, command, data): subject = CommandSubject(command) if "ALL" not in self.NL_DEBUG and subject not in self.NL_DEBUG: return print self.CommandToString(command, data) def MaybeDebugMessage(self, message): hdr = NLMsgHdr(message) self.MaybeDebugCommand(hdr.type, message) def PrintMessage(self, message): hdr = NLMsgHdr(message) print self.CommandToString(hdr.type, message) def DumpRules(self, version): """Returns the IP rules for the specified IP version.""" # Create a struct rtmsg specifying the table and the given match attributes. family = self._AddressFamily(version) rtmsg = RTMsg((family, 0, 0, 0, 0, 0, 0, 0, 0)) return self._Dump(RTM_GETRULE, rtmsg, RTMsg, "") def DumpLinks(self): ifinfomsg = IfinfoMsg((0, 0, 0, 0, 0, 0)) return self._Dump(RTM_GETLINK, ifinfomsg, IfinfoMsg, "") def _Address(self, version, command, addr, prefixlen, flags, scope, ifindex): """Adds or deletes an IP address.""" family = self._AddressFamily(version) ifaddrmsg = IfAddrMsg((family, prefixlen, flags, scope, ifindex)).Pack() ifaddrmsg += self._NlAttrIPAddress(IFA_ADDRESS, family, addr) if version == 4: ifaddrmsg += self._NlAttrIPAddress(IFA_LOCAL, family, addr) self._SendNlRequest(command, ifaddrmsg) def AddAddress(self, address, prefixlen, ifindex): self._Address(6 if ":" in address else 4, RTM_NEWADDR, address, prefixlen, IFA_F_PERMANENT, RT_SCOPE_UNIVERSE, ifindex) def DelAddress(self, address, prefixlen, ifindex): self._Address(6 if ":" in address else 4, RTM_DELADDR, address, prefixlen, 0, 0, ifindex) def GetAddress(self, address, ifindex=0): """Returns an ifaddrmsg for the requested address.""" if ":" not in address: # The address is likely an IPv4 address. RTM_GETADDR without the # NLM_F_DUMP flag is not supported by the kernel. We do not currently # implement parsing dump results. raise NotImplementedError("IPv4 RTM_GETADDR not implemented.") self._Address(6, RTM_GETADDR, address, 0, 0, RT_SCOPE_UNIVERSE, ifindex) return self._GetMsg(IfAddrMsg) def _Route(self, version, command, table, dest, prefixlen, nexthop, dev, mark, uid): """Adds, deletes, or queries a route.""" family = self._AddressFamily(version) scope = RT_SCOPE_UNIVERSE if nexthop else RT_SCOPE_LINK rtmsg = RTMsg((family, prefixlen, 0, 0, RT_TABLE_UNSPEC, RTPROT_STATIC, scope, RTN_UNICAST, 0)).Pack() if command == RTM_NEWROUTE and not table: # Don't allow setting routes in table 0, since its behaviour is confusing # and differs between IPv4 and IPv6. raise ValueError("Cowardly refusing to add a route to table 0") if table: rtmsg += self._NlAttrU32(FRA_TABLE, table) if dest != "default": # The default is the default route. rtmsg += self._NlAttrIPAddress(RTA_DST, family, dest) if nexthop: rtmsg += self._NlAttrIPAddress(RTA_GATEWAY, family, nexthop) if dev: rtmsg += self._NlAttrU32(RTA_OIF, dev) if mark is not None: rtmsg += self._NlAttrU32(RTA_MARK, mark) if uid is not None: rtmsg += self._NlAttrU32(RTA_UID, uid) self._SendNlRequest(command, rtmsg) def AddRoute(self, version, table, dest, prefixlen, nexthop, dev): self._Route(version, RTM_NEWROUTE, table, dest, prefixlen, nexthop, dev, None, None) def DelRoute(self, version, table, dest, prefixlen, nexthop, dev): self._Route(version, RTM_DELROUTE, table, dest, prefixlen, nexthop, dev, None, None) def GetRoutes(self, dest, oif, mark, uid): version = 6 if ":" in dest else 4 prefixlen = {4: 32, 6: 128}[version] self._Route(version, RTM_GETROUTE, 0, dest, prefixlen, None, oif, mark, uid) data = self._Recv() # The response will either be an error or a list of routes. if NLMsgHdr(data).type == NLMSG_ERROR: self._ParseAck(data) routes = self._GetMsgList(RTMsg, data, False) return routes def _Neighbour(self, version, is_add, addr, lladdr, dev, state, flags=0): """Adds or deletes a neighbour cache entry.""" family = self._AddressFamily(version) # Convert the link-layer address to a raw byte string. if is_add and lladdr: lladdr = lladdr.split(":") if len(lladdr) != 6: raise ValueError("Invalid lladdr %s" % ":".join(lladdr)) lladdr = "".join(chr(int(hexbyte, 16)) for hexbyte in lladdr) ndmsg = NdMsg((family, dev, state, 0, RTN_UNICAST)).Pack() ndmsg += self._NlAttrIPAddress(NDA_DST, family, addr) if is_add and lladdr: ndmsg += self._NlAttr(NDA_LLADDR, lladdr) command = RTM_NEWNEIGH if is_add else RTM_DELNEIGH self._SendNlRequest(command, ndmsg, flags) def AddNeighbour(self, version, addr, lladdr, dev): self._Neighbour(version, True, addr, lladdr, dev, NUD_PERMANENT) def DelNeighbour(self, version, addr, lladdr, dev): self._Neighbour(version, False, addr, lladdr, dev, 0) def UpdateNeighbour(self, version, addr, lladdr, dev, state): self._Neighbour(version, True, addr, lladdr, dev, state, flags=NLM_F_REPLACE) def DumpNeighbours(self, version): ndmsg = NdMsg((self._AddressFamily(version), 0, 0, 0, 0)) return self._Dump(RTM_GETNEIGH, ndmsg, NdMsg, "") def ParseNeighbourMessage(self, msg): msg, _ = self._ParseNLMsg(msg, NdMsg) return msg if __name__ == "__main__": iproute = IPRoute() iproute.DEBUG = True iproute.DumpRules(6) iproute.DumpLinks() print iproute.GetRoutes("2001:4860:4860::8888", 0, 0, None)